RU2571820C2 - Method of predicting extent of trematocidial activity against excysted larvae fasciola hepatica in plants - Google Patents

Abstract

FIELD: veterinary medicine.

SUBSTANCE: method comprises phytochemical analysis of plants. In identifying the main active ingredients (MAI) of 2 classes (class of phenol carbonic acids, class of higher fatty acids) and ascorbic acid and auxiliary active substances (AAS) of 2-3 classes (class of aromatic carboxylic acids, class of lipid acids, class of triterpene acids, class of sesquiterpene acids, class of organic acids, and class of tannins), nicotinic acid and canavanine, the high (≥40%) is predicted, in identifying MAI of 1-2 classes and ascorbic acid and AAS of 1-2 classes (class of aromatic carboxylic acids, class of lipid acids, class of triterpene acids, class of organic acids, and class of tannins) - medium (20-39%), and in the presence/absence of ascorbic acid and AAS of 0-2 class (class of aromatic carboxylic acids, class of triterpene acids, and class of organic acids) - low/zero (19%-0) degree of trematocidial activity.

EFFECT: use of the invention enables to carry out screening among meadow plants for trematocidial activity for selection with a view to introduction into the foci of fascioliasis invasion.

3 tbl, 8 ex

Description

The invention relates to veterinary parasitology, relates to a method for predicting the degree of trematocidal activity against excised Fasciola hepatica larvae in plants and can be used for screening among meadow plants for trematocidal activity for selection for introduction (as prophylactic anthelmintics) in foci of fasciose invasion on grazing .

The chemical composition of plants is very diverse and includes many dozens of biologically (pharmacologically) active substances.

These biologically active substances are produced during the life of the plant and accumulate in its organs. They are such chemical compounds that have a certain physiological and pharmacological effect on the animal organism, which can stop the development of a pathological process in a sick animal, increase its general resistance, and return to normal physiological life.

The spectrum of biological activity of medicinal herbs is determined by the composition of biologically active substances that are present in the medicinal plant (essential oils, flavonoids, polyphenols, polysaccharides, etc.). The amount of substances in medicinal plants can range from tens to hundreds.

All this determines the dominance of a particular pharmacological effect (s) of a particular plant and its meaningful choice when prescribed for therapeutic or prophylactic purposes.

The objective of the invention is a method for predicting the degree of trematocidal activity in relation to the excised Fasciola hepatica larvae in plants.

EFFECT: screening among meadow plants for trematocidal activity for selection for introduction (as prophylactic anthelmintics) into foci of fasciose invasion on grazing pastures.

The problem is solved by conducting a phytochemical analysis of plants to identify biologically active substances and, when certain classes of active substances are detected, they predict a high, medium, or low / zero degree of trematocidal activity against excised Fasciola hepatica larvae.

Experimental studies have identified the main and auxiliary active substances that cause the larvafasciolocidal activity of plants (table 1).

We found that in the presence of the main active substances of class 2 in the plant material (class of phenolcarboxylic acids, class of higher fatty acids) and ascorbic acid (vitamin C) and auxiliary active substances of class 2-3 (class of aromatic carboxylic acids, class of lipid acids, class triterpenic acids, the class of sesquiterpenic acids, the class of organic acids, the class of tannins), the amino acids canavanin and nicotinic acid predict high (≥40%), in the presence of the main active substances 1-2 class owls and ascorbic acid (vitamin C) and auxiliary active substances of classes 1-2 (class of aromatic carboxylic acids, class of lipid acids, class of triterpenic acids, class of organic acids and class of tannins) - average (20-39%), and if available / the absence of ascorbic acid (vitamin C) and auxiliary active substances of class 0-2 (class of aromatic carboxylic acids, class of triterpenic acids and class of organic acids) - low / zero (19% -0) degree of trematocidal activity against excised Fasciola hepatica larvae.

The method is illustrated by examples.

Example 1. Conducted a phytochemical analysis of the pharmacy replica {Agrimonia eupatoria L.). In the chemical composition of the pharmacy reposhka phenolcarboxylic acids, higher fatty acids, ascorbic acid (vitamin C) / main active substances of the 2 classes + ascorbic acid (vitamin C) /, aromatic carboxylic acids, triterpenic acids, organic acids, tannins and nicotinic acid / auxiliary active substances of 4 classes + nicotinic acid. The prognosis is a high degree of trematocidal activity against excised Fasciola hepatica larvae. The forecast was confirmed on a classic laboratory model - rabbits of the breed of gray giant of 3-4 months of age. Infection of animals was carried out by feeding the invasive material twice with an interval of 14 days. A single dose was 50 copies. two-month-old adolescari Fasciola hepatica. During the experiments excluded uncontrolled infection of animals with Fasciola vulgaris through feed and water. The control rabbits during the experiment, and the experimental ones, while waiting, were fed cereal hay from dry haymaking, where cattle were not grazed and were not recorded during examination of foci of invasion foci. The grass was fed the day before infection, on the day of infection and the day after infection at the rate of a single daily dose of 100 g. The duration of the experiment was 72 days (after the first infection) until the fascioli reached maturity, and the growth period of trematodes from the second infection was 58 days. The liver was examined for the presence of grown helminths from the excitated Fasciola hepatica larvae exposed to helminthic helmintholaroscopic methods according to K.I. Scriabin (1948). The efficiency was 58.83%.

Example 2. Conducted a phytochemical analysis of baby clam {Lotus corniculatus L.). Phenol-carboxylic acids, higher fatty acids, ascorbic acid (Vitamin C) / main active ingredients of Class 2 + ascorbic acid (Vitamin C) /, triterpenic acids, tannins, nicotinic acid, Canavanin amino acid / auxiliary active ingredients were identified in the chemical composition of rabbit. class 2 substances + nicotinic acid + canavanin amino acid. The prognosis is a high degree of trematocidal activity against excised Fasciola hepatica larvae. The forecast was confirmed, as in example 1. The efficiency was 55.89%.

Example 3. Conducted a phytochemical analysis of Eastern goat (Galega orietalis L.). In the chemical composition of the eastern goat's, phenolcarboxylic acids, higher fatty acids, ascorbic acid (vitamin C) / main active substances of the 2 classes + ascorbic acid (vitamin C) /, nicotinic acid, triterpene and organic acids, tannins / auxiliary active substances of the 3 classes are identified + nicotinic acid. The prognosis is a high degree of trematocidal activity against excised Fasciola hepatica larvae. The forecast was confirmed, as in example 1. The efficiency was 41.18%.

Example 4. A phytochemical analysis of the meadow foxtail (Alopecurus pratensis L.) was carried out. In the chemical composition of meadow foxtail, the main and auxiliary active substances have not been identified. The prognosis is a low / zero degree of trematocidal activity against excised Fasciola hepatica larvae. The forecast was confirmed, as in example 1. The efficiency is 0.0%.

Example 5. Conducted phytochemical analysis of high ridge (Arrenatherum elatius M.). In the chemical composition of high ryegrass, ascorbic acid (Vitamin C) / main active ingredient / and aromatic carboxylic acids / auxiliary active ingredients of class 1 / were identified. The prognosis is a low / zero degree of trematocidal activity against excised Fasciola hepatica larvae. The forecast was confirmed, as in example 1. The efficiency is 0.0%.

Example 6. A phytochemical analysis of meadow bluegrass (Poa pratensis L.) was carried out. In the chemical composition of meadow bluegrass ascorbic acid (vitamin C) was identified / main active ingredient / triterpene acids and amino acid canavanin / auxiliary active substances of the 1st class + amino acid canavanin /. The prognosis is a low / zero degree of trematocidal activity against excised Fasciola hepatica larvae. The forecast was confirmed, as in example 1. Intensity - 2.95%.

Example 7. A phytochemical analysis of sainfoin was performed (Onobrychis petraea D.C.). Phenol carboxylic acids, higher fatty acids, ascorbic acid (vitamin C) / main active substances of the 2 classes + ascorbic acid (vitamin C) / and aromatic carboxylic and organic acids / auxiliary active substances of the 2 classes / were identified in the chemical composition of sainfoin rock. The prognosis is the average degree of trematocidal activity against excised Fasciola hepatica larvae. The forecast was confirmed, as in example 1. Intensity - 28.57%.

Example 8. A phytochemical analysis of meadow clover {Trifolium pratense L.) was carried out. In the chemical composition of meadow clover phenolcarboxylic acids, higher fatty acids, ascorbic acid (vitamin C) / main active ingredients of 2 classes + ascorbic acid (vitamin C) /, as well as lipid acids, tannins / auxiliary active substances of 2 classes / were revealed. The prognosis is the average degree of trematocidal activity against excised Fasciola hepatica larvae. The forecast was confirmed, as in example 1. Intensity - 28.58%.

Tables 2 and 3 show the results of our studies on the trematocidal activity of medicinal and fodder plants against excised Fasciola hepatica larvae to confirm the feasibility of the claimed prediction method.

Studies have confirmed that a complex of biologically active substances, including the main active substances of class 2 (class phenolcarboxylic acids, class of higher fatty acids) and ascorbic acid (vitamin C) and auxiliary active substances of class 2-3 (class of aromatic carboxylic acids, class of lipid acids , a class of triterpenic acids, a class of sesquiterpenic acids, a class of organic acids, a class of tannins), the amino acid canavanin and nicotinic acid, provides a high (≥40%), basis active ingredients of classes 1-2 and ascorbic acid and auxiliary active substances of classes 1-2 (class of aromatic carboxylic acids, class of lipid acids, class of triterpenic acids, class of organic acids and class of tannins) - average (20-39%), and the presence / absence of ascorbic acid and auxiliary active substances of class 0-2 (class of aromatic carboxylic acids, class of triterpenic acids and class of organic acids) - low / zero (19% -0) degree of trematocidal activity in relation to excysters Fasciola hepatica larvae. Ascorbic acid, which is part of the group of basic active substances, has a detoxifying effect on the animal organism, which reduces the negative effect on the body of tannins, organic and phenolcarboxylic acids, which ensures the safety of plant anthelmintic agents for animals.

Claims (1)

A method for predicting the degree of trematocidal activity against excised Fasciola hepatica larvae in plants, including a phytochemical analysis of plants for the identification of active substances, characterized in that when identifying the main active substances of classes 2 (class of phenolcarboxylic acids, class of higher fatty acids) and ascorbic acid (vitamin C ) and auxiliary active substances of classes 2-3 (class of aromatic carboxylic acids, class of lipid acids, class of triterpenic acids, class of sesquiterpenic acids, the assa of organic acids and the class of tannins), nicotinic acid and the amino acid canavanin predict high (≥40%), when revealing the main active substances of 1-2 classes and ascorbic acid (vitamin C) and auxiliary active substances of 1-2 classes (class of aromatic carboxylic acids, class of lipid acids, class of triterpenic acids, class of organic acids and class of tannins) - average (20-39%), and in the presence / absence of ascorbic acid (vitamin C) and auxiliary active substances of class 0-2 (class aromatic carboxylic acids, triterpenic acids and organic acids) - low / zero (19% -0) degree of trematocidal activity against excised larvae of Fasciola hepatica.